Greiff, Victor
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Greiff, Victor
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- PublikationLearning the high-dimensional immunogenomic features that predict public and private antibody repertoires(American Association of Immunologists, 15.10.2017) Greiff, Victor; Weber, Cédric R.; Palme, Johannes; Bodenhofer, Ulrich; Miho, Enkelejda; Menzel, Ulrike; Reddy, Sai T. [in: Journal of Immunology]Recent studies have revealed that immune repertoires contain a substantial fraction of public clones, which may be defined as Ab or TCR clonal sequences shared across individuals. It has remained unclear whether public clones possess predictable sequence features that differentiate them from private clones, which are believed to be generated largely stochastically. This knowledge gap represents a lack of insight into the shaping of immune repertoire diversity. Leveraging a machine learning approach capable of capturing the high-dimensional compositional information of each clonal sequence (defined by CDR3), we detected predictive public clone and private clone–specific immunogenomic differences concentrated in CDR3’s N1–D–N2 region, which allowed the prediction of public and private status with 80% accuracy in humans and mice. Our results unexpectedly demonstrate that public, as well as private, clones possess predictable high-dimensional immunogenomic features. Our support vector machine model could be trained effectively on large published datasets (3 million clonal sequences) and was sufficiently robust for public clone prediction across individuals and studies prepared with different library preparation and high-throughput sequencing protocols. In summary, we have uncovered the existence of high-dimensional immunogenomic rules that shape immune repertoire diversity in a predictable fashion. Our approach may pave the way for the construction of a comprehensive atlas of public mouse and human immune repertoires with potential applications in rational vaccine design and immunotherapeutics.01A - Beitrag in wissenschaftlicher Zeitschrift
- PublikationComparison of methods for phylogenetic B-cell lineage inference using time-resolved antibody repertoire simulations (AbSim)(Oxford University Press, 31.08.2017) Yermanos, Alexander; Greiff, Victor; Krautler, Nike Julia; Menzel, Ulrike; Dounas, Andreas; Miho, Enkelejda; Oxenius, Annette; Stadler, Tanja; Reddy, Sai T.; Kelso, Janet [in: Bioinformatics]Motivation: The evolution of antibody repertoires represents a hallmark feature of adaptive B-cell immunity. Recent advancements in high-throughput sequencing have dramatically increased the resolution to which we can measure the molecular diversity of antibody repertoires, thereby offering for the first time the possibility to capture the antigen-driven evolution of B cells. However, there does not exist a repertoire simulation framework yet that enables the comparison of com monly utilized phylogenetic methods with regard to their accuracy in inferring antibody evolution.01A - Beitrag in wissenschaftlicher Zeitschrift
- PublikationSystems analysis reveals high genetic and antigen-driven predetermination of antibody repertoires throughout B cell development(CellPress, 16.05.2017) Greiff, Victor; Menzel, Ulrike; Miho, Enkelejda; Weber, Cédric; Riedel, René; Cook, Skylar; Valai, Atijeh; Lopes, Telma; Radbruch, Andreas; Winkler, Thomas H.; Reddy, Sai T. [in: Cell Reports]Antibody repertoire diversity and plasticity is crucial for broad protective immunity. Repertoires change in size and diversity across multiple B cell developmental stages and in response to antigen exposure. However, we still lack fundamental quantitative understanding of the extent to which repertoire diversity is predetermined. Therefore, we implemented a systems immunology framework for quantifying repertoire predetermination on three distinct levels: (1) B cell development (pre-B cell, naive B cell, plasma cell), (2) antigen exposure (three structurally different proteins), and (3) four antibody repertoire components (V-gene usage, clonal expansion, clonal diversity, repertoire size) extracted from antibody repertoire sequencing data (400 million reads). Across all three levels, we detected a dynamic balance of high genetic (e.g., >90% for V-gene usage and clonal expansion in naive B cells) and antigen-driven (e.g., 40% for clonal diversity in plasma cells) predetermination and stochastic variation. Our study has implications for the prediction and manipulation of humoral immunity.01A - Beitrag in wissenschaftlicher Zeitschrift
- PublikationBioinformatic and statistical analysis of adaptive immune repertoires(Cell Press, 10/2015) Greiff, Victor; Miho, Enkelejda; Menzel, Ulrike; Reddy, Sai T. [in: Trends in Immunology]High-throughput sequencing (HTS) of immune repertoires has enabled the quantitative analysis of adaptive immune responses and offers the potential to revolutionize research in lymphocyte biology, vaccine profiling, and mono clonal antibody engineering. Advances in sequencing technology coupled to an exponential decline in sequencing costs have fueled the recent over whelming interest in immune repertoire sequencing. This, in turn, has sparked the development of numerous methods for bioinformatic and statistics-driven interpretation and visualization of immune repertoires. Here, we review the current literature on bioinformatic and statistical analysis of immune reper toire HTS data and discuss underlying assumptions, applicability, and scope. We further highlight important directions for future research, which could propel immune repertoire HTS to becoming a standard method for measuring adaptive immune responses.01A - Beitrag in wissenschaftlicher Zeitschrift